# What exactly does the 3 operand imul instruction do in ia-32 assembly?

``````imul 0xffffffd4(%ebp, %ebx, 4), %eax
``````

and I'm baffled by what it's doing exactly. I understand that imul multiplies, but I can't figure out the syntax.

-

Hooray for AT&T assembly base/index syntax! It's not a 3-operand multiply at all. It's the same 2-operand one you know and love, it's just that the first one is a bit complicated. It means:

``````%ebp + (4 * %ebx) + 0xffffffd4
``````

Or:

``````%ebp + (4 * %ebx) - 44
``````

To be a bit clearer (and in base 10). The AT&T base/index syntax breaks down as:

``````offset(base, index, multiplier)
``````
-
+1, and the instruction is multiplying the value in `eax` by (probably) an integer in a local array. –  Zooba Oct 5 '10 at 0:04
+1 @Zooba - that's the most likely explanation. –  Carl Norum Oct 5 '10 at 0:05

(I know and prefer Intel/MASM syntax, so I will use that. Note that the order of operands is different to AT&T.)

Your instruction is actually a two-operand `imul`, which in Intel syntax is:

``````imul eax, DWORD PTR [ebp + ebx*4 + 0FFFFFFD4h]
``````

Where `eax` is the destination operand and the memory location is the source operand. The two-operand `imul` performs a signed (twos-complement) multiplication of the source and destination operands and stores the result in the destination.

This instruction is multiplying a register by the integer in an array. Most likely this appears in a loop and the array is a local variable.

The three-operand `imul` instruction is:

``````imul dest, source1, source2
``````

The `source1` operand (either a memory location or a register) is multiplied by the `source2` operand (either an 8-bit or 16/32-bit integer) and the result is stored in the `dest` operand (a 16, 32 or 64-bit register).

-
(I've answered both questions for people who get here by searching by title.) –  Zooba Oct 5 '10 at 0:16